#!/usr/bin/python
# -*- coding: ascii -*-
# $Id$
#
# Author:  Attila Kolinger
# Date:	   26.feb.2018.

__author__ = "Attila Kolinger"
__email__ = "attila.kolinger@gmail.com"  # <<< here put an email where plugins users can contact you

# Here import the libraries you need, these are necessary to modify the code
from CNC import CNC, Block
from ToolsPage import Plugin
import math


# ==============================================================================
# Manual drillmark plugin
# ==============================================================================
class Tool(Plugin):
	__doc__ = _("""This plugin is for creating drilling marks with a laser engraver for manual drilling""")  # <<< This comment will be show as tooltip for the ribbon button

	def __init__(self, master):
		Plugin.__init__(self, master, "Marker for manual drilling")
		self.icon = "crosshair"
		self.group = "Generator"
		self.variables = [
			("name", "db", "", _("Name")),  # used to store plugin settings in the internal database
			("Mark size", "mm", 10.0, _("Drill mark size")),  # a variable that will be converted in mm/inch based on bCNC settting
			("PosX", "mm", 0, _("Mark X center")),  # an integer variable
			("PosY", "mm", 0, _("Mark Y center")),  # a float value variable
			("Burn time", "float", 4.0, _("Burn time for drillmark")),
			("Burn power", "float", 1000.0, _("Burn power for drillmark")),
			("Mark power", "float", 400.0, _("Mark drawing power")),
			("Mark type", "Point,Cross,Cross45,Star,Spikes,Spikes45,SpikesStar,SpikesStar45", "Cross", _("Type of the mark")),  # a multiple choice combo box
			("Draw ring", "bool", True, _("Ring mark (d/2)"))
		]
		self.sin45 = math.sqrt(0.5)
		self.buttons.append("exe")  # <<< This is the button added at bottom to call the execute method below
		self.help = "This plugin is for creating drilling marks with a laser engraver for manual drilling"

	def appendBurn(self, app, block):
		x0 = self.fromMm("PosX")
		y0 = self.fromMm("PosY")
		movefeed = app.cnc["cutfeed"]
		burntime = self["Burn time"]
		burnpower = self["Burn power"]
		block.append(CNC.grapid(x=x0, y=y0))
		block.append("g1 m3 %s" % (CNC.fmt('s', burnpower)))
		block.append("g4 %s" % (CNC.fmt('p', burntime)))
		block.append("m5")

	def getPowerLine(self, app):
		if CNC.laseradaptive:
			pwrcode = "m4"
		else:
			pwrcode = "m3"
		markpower = self["Mark power"]
		return "%s %s" % (pwrcode, CNC.fmt('s', markpower))

	def appendMark(self, app, block):
		def appendCross(block):
			block.append("m5")
			block.append(CNC.grapid(x=x0, y=y0 + marksizehalf, f=movefeed))
			block.append(self.getPowerLine(app))
			block.append(CNC.gline(y=y0 - marksizehalf, f=drawfeed))
			block.append("m5")
			block.append(CNC.grapid(x=x0 + marksizehalf, y=y0, f=movefeed))
			block.append(self.getPowerLine(app))
			block.append(CNC.gline(x=x0 - marksizehalf, f=drawfeed))
			block.append("m5")

		def appendCross45(block):
			msh = marksizehalf * self.sin45
			block.append("m5")
			block.append(CNC.grapid(x=x0 - msh, y=y0 + msh, f=movefeed))
			block.append(self.getPowerLine(app))
			block.append(CNC.gline(x=x0 + msh, y=y0 - msh, f=drawfeed))
			block.append("m5")
			block.append(CNC.grapid(x=x0 + msh, y=y0 + msh, f=movefeed))
			block.append(self.getPowerLine(app))
			block.append(CNC.gline(x=x0 - msh, y=y0 - msh, f=drawfeed))
			block.append("m5")

		def appendCircle(block):
			block.append("m5")
			block.append(CNC.grapid(x=x0, y=y0 + marksizehalf / 2, f=movefeed))
			block.append(self.getPowerLine(app))
			block.append(CNC.garc(2, x=x0, y=y0 + marksizehalf / 2, j=-marksizehalf / 2, i=0, f=drawfeed))
			block.append("m5")

		def appendSpikes(block):
			sinSpike = math.sin(math.atan(2.0 - math.sqrt(3)))
			cosSpike = math.cos(math.atan(2.0 - math.sqrt(3)))
			block.append("m5")
			block.append(CNC.grapid(x=x0, y=y0, f=movefeed))
			block.append(self.getPowerLine(app))
			block.append(CNC.gline(x=x0 + marksizehalf * sinSpike, y=y0 - marksizehalf * cosSpike, f=drawfeed))
			block.append(CNC.gline(x=x0 - marksizehalf * sinSpike, y=y0 - marksizehalf * cosSpike, f=drawfeed))
			block.append(CNC.gline(x=x0 + marksizehalf * sinSpike, y=y0 + marksizehalf * cosSpike, f=drawfeed))
			block.append(CNC.gline(x=x0 - marksizehalf * sinSpike, y=y0 + marksizehalf * cosSpike, f=drawfeed))
			block.append(CNC.gline(x=x0, y=y0, f=drawfeed))
			block.append(CNC.gline(x=x0 - marksizehalf * cosSpike, y=y0 + marksizehalf * sinSpike, f=drawfeed))
			block.append(CNC.gline(x=x0 - marksizehalf * cosSpike, y=y0 - marksizehalf * sinSpike, f=drawfeed))
			block.append(CNC.gline(x=x0 + marksizehalf * cosSpike, y=y0 + marksizehalf * sinSpike, f=drawfeed))
			block.append(CNC.gline(x=x0 + marksizehalf * cosSpike, y=y0 - marksizehalf * sinSpike, f=drawfeed))
			block.append(CNC.gline(x=x0, y=y0, f=drawfeed))
			block.append("m5")

		def appendSpikes45(block):
			sinSpike = math.sin(math.atan(1.0 / math.sqrt(3)))
			cosSpike = math.cos(math.atan(1.0 / math.sqrt(3)))
			block.append("m5")
			block.append(CNC.grapid(x=x0, y=y0, f=movefeed))
			block.append(self.getPowerLine(app))
			block.append(CNC.gline(x=x0 + marksizehalf * sinSpike, y=y0 - marksizehalf * cosSpike, f=drawfeed))
			block.append(CNC.gline(x=x0 + marksizehalf * cosSpike, y=y0 - marksizehalf * sinSpike, f=drawfeed))
			block.append(CNC.gline(x=x0 - marksizehalf * cosSpike, y=y0 + marksizehalf * sinSpike, f=drawfeed))
			block.append(CNC.gline(x=x0 - marksizehalf * sinSpike, y=y0 + marksizehalf * cosSpike, f=drawfeed))
			block.append(CNC.gline(x=x0, y=y0, f=drawfeed))
			block.append(CNC.gline(x=x0 - marksizehalf * sinSpike, y=y0 - marksizehalf * cosSpike, f=drawfeed))
			block.append(CNC.gline(x=x0 - marksizehalf * cosSpike, y=y0 - marksizehalf * sinSpike, f=drawfeed))
			block.append(CNC.gline(x=x0 + marksizehalf * cosSpike, y=y0 + marksizehalf * sinSpike, f=drawfeed))
			block.append(CNC.gline(x=x0 + marksizehalf * sinSpike, y=y0 + marksizehalf * cosSpike, f=drawfeed))
			block.append(CNC.gline(x=x0, y=y0, f=drawfeed))
			block.append("m5")
			block.append(CNC.grapid(x=x0 + marksizehalf / 2, y=y0 + marksizehalf / 2, f=movefeed))
			block.append(self.getPowerLine(app))
			block.append(CNC.gline(x=x0 - marksizehalf / 2, f=drawfeed))
			block.append(CNC.gline(y=y0 - marksizehalf / 2, f=drawfeed))
			block.append(CNC.gline(x=x0 + marksizehalf / 2, f=drawfeed))
			block.append(CNC.gline(y=y0 + marksizehalf / 2, f=drawfeed))
			block.append("m5")

		x0 = self.fromMm("PosX")
		y0 = self.fromMm("PosY")
		movefeed = app.cnc["cutfeed"]
		drawfeed = app.cnc["cutfeedz"]
		marksizehalf = self.fromMm("Mark size") / 2
		markpower = self["Mark power"]
		marktype = self["Mark type"]
		if "None" == marktype:
			pass
		else:
			block.append("m5")
			if "Star" == marktype:
				appendCross(block)
				appendCross45(block)
			if "Cross" == marktype:
				appendCross(block)
			if "Cross45" == marktype:
				appendCross45(block)
			if "Spikes" == marktype:
				appendSpikes(block)
			if "Spikes45" == marktype:
				appendSpikes45(block)
			if "SpikesStar" == marktype:
				appendSpikes(block)
				appendCross45(block)
			if "SpikesStar45" == marktype:
				appendSpikes45(block)
				appendCross(block)

			if self["Draw ring"]:
				appendCircle(block)
			else:
				block.append("m5")

	def execute(self, app):
		name = self["name"]
		if not name or name == "default":
			name = "Drillmark"
		marksize = self["Mark size"]
		x0 = self.fromMm("PosX")
		y0 = self.fromMm("PosY")
		marktype = self["Mark type"]
		block = Block(name + " %s diameter %s" % (marktype, CNC.fmt("", marksize)))
		self.appendBurn(app, block)
		self.appendMark(app, block)
		active = app.activeBlock()
		if active == 0:
			active = 1
		blocks = [block]
		app.gcode.insBlocks(active, blocks, _("Manual drill mark"))
		app.refresh()  # <<< refresh editor
		app.setStatus(_("Generated: MyPlugin Result"))
